[Audio] NCN Nano-Devices for Medicine and Biology: Tutorialshttps://nanohub.org/resources/4755
Fri, 09 Dec 2016 18:27:13 +0000HUBzero - The open source platform for scientific and educational collaborationFrom among the many tutorial lectures available on the nanoHUB, we list a few that convey new approaches to the development of new kinds of devices for applications in medicine and biology.nanoHUB.orgsupport@nanohub.orgnodevices, education/outreach, nanomedicine, tutorial, nano/bioen-gbCopyright 2016 nanoHUB.orgResourcesNanoparticle Synthesis and Assembly for Biological Sensinghttps://nanohub.org/resources/386
Nanoparticles have unique physical and chemical properties that make them very useful for biological and chemical sensing. For example, colloidal gold has been used as an optical transducer for antibody based sensing for over twenty years and is the basis for a many of the point-of-use diagnostic assays currently available to the general public.https://nanohub.org/site/resources/2006/07/01620/2005.10.25-Lee.mp3Nanoparticles have unique physical and chemical properties that make them very useful for biological and chemical sensing. For example, colloidal gold has been used as an optical transducer for antibody based sensing for over twenty years and is the basis for a many of the point-of-use diagnostic assays currently available to the general public.nonano electro-mechanical systems, quantum dots, visualization, tutorial, nano/bio, hosted/taped by NCN@Purdue, from Purdue, materials scienceGil LeeGil LeeOnline PresentationsTue, 25 Oct 2005 09:00:00 +0000https://nanohub.org/site/resources/2006/07/01620/2005.10.25-Lee.mp3Engineering Nanomedical Systemshttps://nanohub.org/resources/3539
This tutorial will cover general problems and approaches to the design of engineered nanomedical systems. An example to be covered is the engineering design of programmable multilayered nanoparticles (PMNP) to control a multi-sequence process of targeting to rare cells in-vivo, re-targeting to intracellular sites, and controlling of final gene/drug delivery. Therapeutic genes can be manufactured inside living cells as a "nanofactory" under the control of these molecular biosensors providing feedback- controlled single cell medicine.https://nanohub.org/site/resources/2007/11/03543/2007.10.15-leary-nt501.mp3This tutorial will cover general problems and approaches to the design of engineered nanomedical systems. An example to be covered is the engineering design of programmable multilayered nanoparticles (PMNP) to control a multi-sequence process of targeting to rare cells in-vivo, re-targeting to intracellular sites, and controlling of final gene/drug delivery. Therapeutic genes can be manufactured inside living cells as a "nanofactory" under the control of these molecular biosensors providing feedback- controlled single cell medicine.noquantum dots, nanomedicine, tutorial, nano/bio, hosted/taped by NCN@Purdue, drug delivery, from Purdue, gene deliveryJames LearyJames LearyOnline PresentationsSat, 17 Nov 2007 00:43:22 +0000https://nanohub.org/site/resources/2007/11/03543/2007.10.15-leary-nt501.mp3Geometry of Diffusion and the Performance Limits of Nanobiosensorshttps://nanohub.org/resources/2048
This presentation demonstrates how the classical diffusion-capture (D-C) model has improved sensor performance, since the D-C model is a "geometry of diffusion" rather than a "geometry of electrostatics." A scaling law based on D-C is also posited; the scaling law resolves many classical puzzles and aids the interpretation of experiments to date with a simple coherent framework.https://nanohub.org/site/resources/2006/12/02052/2006.11.27-alam-nt501.mp3This presentation demonstrates how the classical diffusion-capture (D-C) model has improved sensor performance, since the D-C model is a "geometry of diffusion" rather than a "geometry of electrostatics." A scaling law based on D-C is also posited; the scaling law resolves many classical puzzles and aids the interpretation of experiments to date with a simple coherent framework.nosensors, nano/bio, hosted/taped by NCN@Purdue, from PurdueMuhammad A. Alam, Pradeep R. NairMuhammad A. Alam, Pradeep R. NairOnline PresentationsWed, 06 Dec 2006 00:19:40 +0000https://nanohub.org/site/resources/2006/12/02052/2006.11.27-alam-nt501.mp3Nanosystems Biologyhttps://nanohub.org/resources/170
As we enter the 21st century, we stand at a major inflection point for biology and medicine-the way we view and practice these disciplines is changing profoundly. These changes are being driven by systems biology, a new approach to biology, and which will increasingly transform medicine from disease-driven and reactive to health-driven and predictive and preventative.https://nanohub.org/site/resources/2005/11/00314/2004.09.10-heath.mp3As we enter the 21st century, we stand at a major inflection point for biology and medicine-the way we view and practice these disciplines is changing profoundly. These changes are being driven by systems biology, a new approach to biology, and which will increasingly transform medicine from disease-driven and reactive to health-driven and predictive and preventative.nonanomedicine, research seminar, nanowires, nanofluidics, nano/bio, hosted/taped by NCN@Purdue, from outside NCNJames R. HeathJames R. HeathOnline PresentationsThu, 09 Sep 2004 09:00:00 +0000https://nanohub.org/site/resources/2005/11/00314/2004.09.10-heath.mp3